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Representation of women on National Institutes of Health study sections before and during COVID-19 pandemic

Published online by Cambridge University Press:  07 July 2025

Lucy O. Alejandro
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA
Alexandra Knitter
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA
Monica Kowalczyk
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA
Wen Wan
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA
Valerie G. Press
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA Department of Pediatrics, University of Chicago, Chicago, IL, USA
Vineet M. Arora
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA
Anna Volerman*
Affiliation:
Department of Medicine, University of Chicago, Chicago, IL, USA Department of Pediatrics, University of Chicago, Chicago, IL, USA
*
Corresponding author: A. Volerman; Email: avolerman@uchicago.edu
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Abstract

Women remain underrepresented in National Institutes of Health (NIH) study sections, panels of scientists who review grant applications to inform national research priorities and funding allocations. This longitudinal, retrospective study examined the representation of women on study sections before and during the COVID-19 pandemic. Overall, 16,902 reviewers served on 1,045 study sections across 2019, 2020, and 2021, of which 40.1% (n = 6,786) were women. The likelihood of reviewers being women significantly increased from 2019 to 2021, except among chairpersons. Understanding the representation of scientists influencing NIH grant decisions is important to ensuring scientific discovery that meets the nation’s pluralistic needs.

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Brief Report
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2025. Published by Cambridge University Press on behalf of Association for Clinical and Translational Science

Introduction

Although women represent half of medical students and biomedical doctoral graduates, they remain underrepresented in influential roles in biomedicine, including faculty and leadership positions [Reference Plank-Bazinet, Heggeness, Lund and Clayton1]. An important but overlooked metric of representation is within the National Institutes of Health (NIH) study sections. These panels of scientists conduct peer review and score grant applications, informing national research priorities and funding allocations. A novel study found that women were underrepresented in NIH study sections in 2019 and were less likely to be on study sections that resulted in greater funding and research grants awarded, suggesting less influential opportunities to impact the nation’s research agenda [Reference Volerman, Arora, Cursio, Wei and Press2].

The representation of women in NIH study sections is important because women bring unique perspectives that enhance the breadth and depth of biomedical discovery [Reference Plank-Bazinet, Heggeness, Lund and Clayton1]. Past research suggests that more diverse teams promote creativity, innovation, and problem solving while minimizing the effects of groupthink and bias [Reference Swartz, Palermo, Masur and Aberg3]. The representation of women in scientific research is also inextricably linked to innovations in women’s health. For instance, research shows that women scientists are more likely than male scientists to report and assess sex and gender differences [Reference Sugimoto, Ahn, Smith, Macaluso and Larivière4,Reference Nielsen, Andersen, Schiebinger and Schneider5]. They are also more likely to spearhead research and programs focused on female-focused issues or populations, suggesting that who conducts research affects the course of discovery [Reference Koning, Samila and Ferguson6,Reference Sonnier, Coladonato and Hahn7]. Further, the representation of women among decision-making bodies like NIH study sections may alleviate the chronic underfunding of women’s health research, as evidenced by gaps in funding for conditions that exclusively or disproportionately affect women [8]. Finally, improving the representation of women on study sections may improve the gender gap in NIH funding. While studies find that men and women have near-equal NIH funding success rates, women are less likely to be represented among grant applicants and more likely to leave NIH-funded career pipelines [Reference Ley and Hamilton9]. Serving as a reviewer offers privileges and benefits such as deep knowledge of the peer review process, networking, and grant application extensions. As such, promoting the representation of women in NIH study sections may help reduce attrition and narrow the gender gap in NIH funding.

During the COVID-19 pandemic, women scientists, especially those with caregiving responsibilities, experienced unique challenges and opportunities [Reference Cardel, Dean and Montoya-Williams10,Reference Alejandro, Kowalczyk and Ham11]. For example, women were more likely to report decreased productivity and negative impacts on manuscript publications, contributing to slowed career advancement and potential attrition from the academic pipeline [Reference Cardel, Dean and Montoya-Williams10,Reference Alejandro, Kowalczyk and Ham11]. Concurrently, women were more likely to report increased flexibility in professional work, suggesting that remote or hybrid opportunities can be beneficial [Reference Alejandro, Kowalczyk and Ham11]. To our knowledge, no study has investigated longitudinal trends regarding women’s representation in study sections, including before and during the pandemic. This research helps inform future interventions to promote equitable decision-making regarding the future of scientific discovery for our diverse nation.

Materials and methods

This longitudinal, retrospective study examined chartered and special emphasis study sections from all NIH institutes, centers, and offices during 2019, 2020, and 2021 May to July review cycles. University of Chicago’s Institutional Review Board deemed this study exempt because it used publicly available data. We followed STROBE reporting guidelines.

Data were extracted from NIH study section rosters about each reviewer’s status (permanent, temporary), role (chairperson, member, mail reviewer), and academic rank (professor, associate professor, assistant professor, none or other). Reviewers’ gender (man, woman) was identified using pronouns and/or photos from reputable websites. If unconfirmed (n = 49), gender was imputed using Genderize.io (Demografix ApS), a validated algorithm that has been used in past studies to assess gender representation in medicine and science [Reference Volerman, Arora, Cursio, Wei and Press2,Reference Sonnier, Coladonato and Hahn7,Reference Cevik, Haque and Manne-Goehler12Reference DeFilippis, Sinnenberg and Mahmud14]. We used the standard threshold of 60% probability, which was implemented in alignment with past studies [Reference Sebo15]. While Genderize.io can be limited by non-classifications [Reference Waldhorn, Dekel and Morozov16], this particular study only encountered one individual (n = 1) whose gender could not be imputed.

Descriptive statistics were used to summarize the representation of unique women reviewers across years, stratified by status, role, and academic rank. To model the probability of reviewers being women and assess the impact of the COVID-19 pandemic, we used a multilevel model via generalized estimating equation with a log link function and Poisson distribution. The primary analysis compared 2021 to the pre-pandemic year, 2019. The secondary analysis compared 2020 to 2019. Study sections nested within institutes/centers/offices were considered as random clusters and cluster-robust standard errors were estimated. The model was adjusted for each reviewer’s academic rank, status, and role. Adjusted risk ratios (aRR) with 95% confidence intervals (CI) were reported. In addition, we conducted multiple subgroup analyses to check the consistency of the main findings and detect potential heterogeneity. Sensitivity analyses were also conducted excluding individuals whose gender was imputed (n = 48). Analyses were conducted using SAS software 9.4 (SAS Institute Inc., Cary, North Carolina).

Results

Overall, 16,902 unique reviewers served on 1,045 study sections across 2019, 2020, and 2021, of which 40.1% (n = 6,786) were women (Table 1). Women represented 34.8% (n = 2,926/8,417) of professors, 45.4% (n = 2,343/5,150) of associate professors, and 48.3% (n = 1,212/2,509) of assistant professors, and 48.3% (n = 152/315) of reviewers with no or other academic ranks.

Table 1. Representation of women in National Institutes of Health study sections by status, role, and academic rank, 2019–2021 May–June review cycles

a Total number of overall reviewers across years reflects unique reviewers because some reviewers participated in the same or different study sections in multiple years and may have held different statuses, roles, or academic ranks.

Women represented 39.1% (n = 3,246/8,297) of reviewers in 2019, 38.9% (n = 2,948/7,576) in 2020, and 41.9% (n = 3,710/8,857) in 2021. The likelihood of reviewers being women significantly increased from 2019 to 2021 (aRR = 1.06; CI [1.03–1.10]) (Table 2).

Table 2. Likelihood of reviewers on National Institutes of Health study section being women, 2019–2021 May–June review cycles

Ref = reference group; NC = not calculated.

a Poisson regressions assessed the likelihood that any given reviewer is a woman, adjusting for academic rank, status, and role. Random effects included the study section and the institute/center/office. Fixed effects included year, academic rank, status, and role. Changes over time were also stratified by status (permanent/temporary) or role (chairperson/non-chairperson) where noted. Total n for all reviewers and by stratified subgroups reflects all non-unique reviewers.

Women represented 39.9% (n = 4,330/10,848) of permanent reviewers and 40.5% (n = 3,049/7,526) of temporary reviewers. Among permanent reviewers, women represented 38.9% (n = 2,189/5,621) in 2019, 39.3% (n = 2,078/5,284) in 2020, and 41.5% (n = 2,344/5,648) in 2021. The likelihood of permanent reviewers being women increased significantly from 2019 to 2021 (aRR = 1.06; CI [1.02–1.10]). Among temporary reviewers, women represented 39.4% (n = 1,100/2,792) in 2019, 38.1% (n = 917/2,407) in 2020, and 42.6% (n = 1,404/3,296) in 2021. The likelihood of temporary reviewers being women increased significantly from 2019 to 2021 (aRR = 1.07; CI [1.01–1.14]).

Women represented 37.4% (n = 327/874) of chairpersons and 40.3% (n = 6,634/16,462) of non-chairpersons (members, mail reviewers). Among chairpersons, women represented 35.4% (n = 133/376) in 2019, 33.1% (n = 125/378) in 2020, and 42.0% (n = 160/381) in 2021. The likelihood of chairpersons being women did not significantly change between 2019 and 2021 (aRR = 1.18; CI [0.98–1.41]). Among non-chairpersons, women represented 39.2% (n = 3,127/7,969) in 2019, 39.2% (n = 2,834/7,225) in 2020, and 41.9% (n = 3,560/8,497) in 2021. The likelihood of non-chairpersons being women significantly increased from 2019 to 2021 (aRR = 1.06; CI [1.02–1.09]).

For the secondary analysis examining changes from 2019 to 2020, there were no significant differences in the likelihood of permanent reviewers, temporary reviewers, chairpersons, or non-chairpersons being women (Table 2). Findings in the sensitivity analyses, where individuals were excluded if their gender was imputed, did not differ for both the primary and secondary analyses (Supplementary Table).

Discussion

This study is the first to longitudinally examine representation on NIH study sections, which influences funding decisions and biomedical science discovery in our nation. Though women were less than half of all NIH study section reviewers, their representation increased overall between 2019 and 2021. While this increase is statistically significant, it is important to note that the absolute difference is small. In contrast, among chairpersons, changes in women’s representation were not statistically significant across years. However, the absolute difference in the proportion of women chairpersons between 2019 and 2021 was relatively larger than among all other subgroups.

Overall improvements in women’s representation could reflect past NIH efforts to advance diversity, equity, and inclusion in study sections, including building tools to recruit and retain diverse scientists in study sections. One example is the Early Career Reviewer Program, which aims to recruit qualified early career scientists to enrich the pool of study section reviewers; data from the first 12 years of the program show that it has achieved gender parity [17]. Additionally, in 2020, the NIH Center for Scientific Review, which conducts the majority of NIH study sections, hired consultants to assess organizational processes and identify actions to foster transparency and inclusion [Reference Byrnes18]. Such efforts are commendable and must be continued and expanded, as grant funding allocations should be made by decision-making bodies that represent the diverse populations whom scientific research is meant to serve. Additionally, virtual study sections implemented during the pandemic may have enhanced inclusion of women, who traditionally face greater barriers to travel for in-person meetings like caregiving responsibilities [Reference Cardel, Dhurandhar and Yarar-Fisher19]. A prior evaluation conducted by the Center for Scientific Review found that a smaller proportion of women preferred in-person meetings than men [17]. Finally, our findings may be because more women had time to participate in study sections as other professional opportunities, like conference travel, declined and flexibility in work efforts increased [Reference Cardel, Dean and Montoya-Williams10]. The nonsignificant findings on the representation of women among chairpersons may reflect the longer timelines needed for progress in leadership roles to manifest or, alternatively, small sample size.

Importantly, when compared to national data on women faculty in academic medicine, we found that NIH study sections included higher proportions of professors (35% vs 29%) and similar proportions of associate professors (45% vs 43%) and assistant professors (48% vs 49%) as reviewers [20]. This finding suggests that women who are more established in their careers are more likely to be selected as reviewers. It also indicates that women professors as a group may take on a disproportionate share of the peer review workload. Such concentration of responsibilities on this smaller cohort may limit their bandwidth for other professional responsibilities or impact burnout in this group.

For limitations, this study examined one grant cycle (May–June) over three years, which may limit generalizability. Gender was binarily defined; if pronouns were unavailable, photo-based gender identification may have misgendered individuals. This study also lacked comprehensive data about reviewers. While we included gender, academic rank, reviewer role, and reviewer status, no data were available on characteristics such as race/ethnicity, years since completing the highest degree, or years of experience in the study section.

This study highlights the need for the NIH to provide comprehensive and publicly available data on study section reviewers’ characteristics, such as gender and race/ethnicity. Future research also should examine the potential effects of discrimination, biases, and policies in study sections, as well as potential drivers of positive change. Understanding and addressing the representation of scientists influencing NIH grant decisions is important to ensuring innovative science that meets the nation’s pluralistic needs.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/cts.2025.10091.

Acknowledgments

The authors thank Greg Asare, Sophia Carino, Sukarn Chokkara, Nikita Deshpande, Melanie Velaonia, and Isabella Xu for their assistance with data collection; they received hourly compensation as research assistants.

Author contributions

Lucy Alejandro: Data curation, Formal analysis, Investigation, Methodology, Software, Validation, Visualization, Writing – original draft, Writing – review & editing; Alexandra Knitter: Data curation, Formal analysis, Investigation, Methodology, Software, Validation, Visualization, Writing – original draft, Writing – review & editing; Monica Kowalczyk: Data curation, Investigation, Methodology, Validation, Visualization, Writing – original draft, Writing – review & editing; Wen Wan: Data curation, Formal analysis, Software, Validation, Writing – review & editing; Valerie Press: Conceptualization, Funding acquisition, Writing – review & editing; Vineet Arora: Conceptualization, Funding acquisition, Writing – review & editing; Anna Volerman: Conceptualization, Data curation, Formal analysis, Funding acquisition, Investigation, Methodology, Project administration, Resources, Software, Supervision, Validation, Visualization, Writing – original draft, Writing – review & editing.

Funding statement

This work was funded by the University of Chicago Diversity Research and Small Grant Program.

Competing interests

Dr Volerman reported receiving grants from the NIH (K23HL143128, R01GM147154, R01MD019652, R21MD019333) outside the submitted work. Dr Arora reported receiving grants from the NIH (T35AG029795, R01HD097786, U01GM132375) and Agency of Healthcare Reseach and Quality (AHRQ, R01HS027804) outside the submitted work. Dr Press reported receiving grants from the NIH (R01HL146644, K24HL163408) and AHRQ (R01HS027804) outside the submitted work.

References

Plank-Bazinet, JL, Heggeness, ML, Lund, PK, Clayton, JA. Women’s careers in biomedical sciences: implications for the economy, scientific discovery, and women’s health. J Womens Health 2002. 2017;26:525529. doi: 10.1089/jwh.2016.6012.Google Scholar
Volerman, A, Arora, VM, Cursio, JF, Wei, H, Press, VG. Representation of women on National Institutes of Health study sections. JAMA Netw Open. 2021;4:e2037346. doi: 10.1001/jamanetworkopen.2020.37346.Google Scholar
Swartz, TH, Palermo, AGS, Masur, SK, Aberg, JA. The science and value of diversity: closing the gaps in our understanding of inclusion and diversity. J Infect Dis. 2019;220:S33S41. doi: 10.1093/infdis/jiz174.Google Scholar
Sugimoto, CR, Ahn, YY, Smith, E, Macaluso, B, Larivière, V. Factors affecting sex-related reporting in medical research: a cross-disciplinary bibliometric analysis. The Lancet. 2019;393:550559. doi: 10.1016/S0140-6736(18)32995-7.Google Scholar
Nielsen, MW, Andersen, JP, Schiebinger, L, Schneider, JW. One and a half million medical papers reveal a link between author gender and attention to gender and sex analysis. Nat Hum Behav. 2017;1:791796. doi: 10.1038/s41562-017-0235-x.Google Scholar
Koning, R, Samila, S, Ferguson, JP. Who do we invent for? Patents by women focus more on women’s health, but few women get to invent. Science. 2021;372:13451348. doi: 10.1126/science.aba6990.Google Scholar
Sonnier, JH, Coladonato, C, Hahn, AK, et al. Female authorship is driving studies of female athletes: a systematic review. Am J Sports Med. 2024;52:24022406. doi: 10.1177/03635465231203698.Google Scholar
Women’s health: end the disparity in funding. Nature. 2023;617:88. doi: 10.1038/d41586-023-01472-5.Google Scholar
Ley, TJ, Hamilton, BH. The gender gap in NIH grant applications. Science. 2008;322:14721474. doi: 10.1126/science.1165878.Google Scholar
Cardel, MI, Dean, N, Montoya-Williams, D. Preventing a secondary epidemic of lost early career scientists. Effects of COVID-19 pandemic on women with children. Ann Am Thorac Soc. 2020;17:13661370. doi: 10.1513/AnnalsATS.202006-589IP.Google Scholar
Alejandro, LO, Kowalczyk, M, Ham, SA, et al. Differential professional and personal impacts of the COVID-19 pandemic on early career researchers. Acad Med. 2025. doi: 10.1097/ACM.0000000000006005.Google Scholar
Cevik, M, Haque, SA, Manne-Goehler, J, et al. Gender disparities in coronavirus disease 2019 clinical trial leadership. Clin Microbiol Infect. 2021;27:10071010. doi: 10.1016/j.cmi.2020.12.025.Google Scholar
Gottlieb, M, Krzyzaniak, SM, Mannix, A, et al. Sex distribution of editorial board members among emergency medicine journals. Ann Emerg Med. 2021;77:117123. doi: 10.1016/j.annemergmed.2020.03.027.Google Scholar
DeFilippis, EM, Sinnenberg, L, Mahmud, N, et al. Gender differences in publication authorship during COVID-19: a bibliometric analysis of high-impact cardiology journals. J Am Heart Assoc. 2021;10:e019005. doi: 10.1161/JAHA.120.019005.Google Scholar
Sebo, P. Using genderize.io to infer the gender of first names: how to improve the accuracy of the inference. J Med Libr Assoc JMLA. 2021;109:609612. doi: 10.5195/jmla.2021.1252.Google Scholar
Waldhorn, I, Dekel, A, Morozov, A, et al. Trends in women’s leadership of oncology clinical trials. Front Oncol. 2022;12:885275. doi: 10.3389/fonc.2022.885275.Google Scholar
NIH Center for Scientific Review. CSR Data & Evaluations. (https://public.csr.nih.gov/AboutCSR/Evaluations) Accessed October 24, 2024.Google Scholar
Byrnes, N. CSR’s Commitment to Advancing Equity, Diversity and Inclusion in Peer Review. NIH Extramural Nexus. 2021. (https://nexus.od.nih.gov/all/2021/03/08/csrs-commitment-to-advancing-equity-diversity-and-inclusion-in-peer-review/) Accessed November 12, 2024.Google Scholar
Cardel, MI, Dhurandhar, E, Yarar-Fisher, C, et al. Turning chutes into ladders for women faculty: a review and roadmap for equity in Academia. J Womens Health. 2020;29:721733. doi: 10.1089/jwh.2019.8027.Google Scholar
The State of Women in Academic Medicine 2023–2024: Progressing Toward Equity. AAMC. (https://www.aamc.org/data-reports/data/state-women-academic-medicine-2023-2024-progressing-toward-equity) Accessed December 6, 2024.Google Scholar
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Table 1. Representation of women in National Institutes of Health study sections by status, role, and academic rank, 2019–2021 May–June review cycles

Figure 1

Table 2. Likelihood of reviewers on National Institutes of Health study section being women, 2019–2021 May–June review cycles

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